#ifdef RCSID
static char RCSid[] =
    "$Header: d:/cvsroot/tads/TADS2/RUN.C,v 1.2 1999/05/17 02:52:13 MJRoberts Exp $";
#endif

/* 
 *   Copyright (c) 1991, 2002 Michael J. Roberts.  All Rights Reserved.
 *   
 *   Please see the accompanying license file, LICENSE.TXT, for information
 *   on using and copying this software.  
 */
/*
Name
  run.c - code execution
Function
  Executes p-code
Notes
  Due to the highly mobile memory architecture of this version of TADS,
  objects and data within objects can move at certain junctures.  At
  these times, pointers to object data become invalid, and it's necessary
  to re-establish those pointers.  Two functions are provided to facilitate
  this.  runcpsav() is called prior to an operation that may move object
  data; it returns the offset within the object and property of the
  code being executed, and unlocks the object.  runcprst() is called
  after such an operation; it relocks the object, and returns a pointer
  to the property data.  Note that the special property number zero is
  used for functions; this indicates that no prpdef structuring is done
  on the object, but that its actual data start at offset 0.
Modified
  04/11/99 CNebel        - Fix warnings.
  10/20/91 MJRoberts     - creation
*/

#include <stdlib.h>
#include <string.h>

#include "os.h"
#include "run.h"
#include "dbg.h"
#include "lst.h"
#include "obj.h"
#include "voc.h"
#include "sup.h"

/* forward declarations */
struct bifcxdef;

/*
 *   Create a new object
 */
static void run_new(runcxdef *ctx, uchar *noreg *codepp,
                    objnum callobj, prpnum callprop)
{
    objnum   sc;
    objnum   objn;
    objdef  *objp;
    int      sccnt;
    vocidef *voci;
    
    /* get the superclass (nil means no superclass) */
    if (runtostyp(ctx) == DAT_NIL)
        sccnt = 0;
    else
    {
        /* get the superclass */
        sc = runpopobj(ctx);
        sccnt = 1;

        /* make sure it's not a dynamically-allocated object */
        voci = vocinh(ctx->runcxvoc, sc);
        if (voci->vociflg & VOCIFNEW)
            runsig(ctx, ERR_BADNEWSC);
    }

    /* create a new object and set its superclass */
    objp = objnew(ctx->runcxmem, sccnt, 64, &objn, FALSE);
    if (sccnt) oswp2(objsc(objp), sc);

    /* save undo for the object creation */
    vocdusave_newobj(ctx->runcxvoc, objn);

    /* touch and unlock the object */
    mcmtch(ctx->runcxmem, (mcmon)objn);
    mcmunlck(ctx->runcxmem, (mcmon)objn);

    /* add a vocabulary inheritance record for the new object */
    vociadd(ctx->runcxvoc, objn, MCMONINV, sccnt, &sc, VOCIFNEW | VOCIFVOC);

    /* set up its vocabulary, inheriting from the class */
    if (sccnt)
        supivoc1((struct supcxdef *)0, ctx->runcxvoc,
                 vocinh(ctx->runcxvoc, objn), objn, TRUE, VOCFNEW);

    /* run the constructor */
    runpprop(ctx, codepp, callobj, callprop, objn, PRP_CONSTRUCT,
             FALSE, 0, objn);
#ifdef NEVER
    /*
     *   add it to its location's contents list by calling
     *   newobj.moveInto(newobj.location)
     */
    runppr(ctx, objn, PRP_LOCATION, 0);
    if (runtostyp(ctx) == DAT_OBJECT)
        runppr(ctx, objn, PRP_MOVEINTO, 1);
    else
        rundisc(ctx);
#endif

    /* return the new object */
    runpobj(ctx, objn);
}

/*
 *   Delete an object 
 */
static void run_delete(runcxdef *ctx, uchar *noreg *codepp,
                       objnum callobj, prpnum callprop)
{
    objnum    objn;
    vocidef  *voci;
    int       i;
    voccxdef *vctx = ctx->runcxvoc;

    /* get the object to be deleted */
    objn = runpopobj(ctx);

    /* make sure it was allocated with "new" */
    voci = vocinh(vctx, objn);
    if (voci == 0 || !(voci->vociflg & VOCIFNEW))
        runsig(ctx, ERR_BADDEL);
    
    /* run the destructor */
    runpprop(ctx, codepp, callobj, callprop, objn, PRP_DESTRUCT,
             FALSE, 0, objn);
#ifdef NEVER
    /* remove it from its location, if any, by using moveInto(nil) */
    runpnil(ctx);
    runppr(ctx, objn, PRP_MOVEINTO, 1);
#endif

    /* save undo for the object deletion */
    vocdusave_delobj(vctx, objn);

    /* delete the object's inheritance and vocabulary records */
    vocdel(vctx, objn);
    vocidel(vctx, objn);

    /* forget 'it' if the deleted object is 'it' (or 'them', etc) */
    if (vctx->voccxit == objn) vctx->voccxit = MCMONINV;
    if (vctx->voccxhim == objn) vctx->voccxhim = MCMONINV;
    if (vctx->voccxher == objn) vctx->voccxher = MCMONINV;
    for (i = 0 ; i < vctx->voccxthc ; ++i)
    {
        if (vctx->voccxthm[i] == objn)
        {
            /* forget the entire 'them' list when deleting from it */
            vctx->voccxthc = 0;
            break;
        }
    }

    /* forget the 'again' statistics if necessary */
    if (vctx->voccxlsd.vocolobj == objn
        || vctx->voccxlsi.vocolobj == objn
        || vctx->voccxlsa == objn
        || vctx->voccxlsv == objn
        || vctx->voccxlsp == objn)
    {
        /* forget the verb */
        vctx->voccxlsv = MCMONINV;

        /* 
         *   note in the flags why we lost the "again" verb, for better
         *   error reporting if the player tries to type "again"
         */
        vctx->voccxflg |= VOCCXAGAINDEL;
    }

    /* delete the memory manager object */
    mcmfre(ctx->runcxmem, (mcmon)objn);
}


/*
 *   invoke a function
 */
void runfn(runcxdef *ctx, noreg objnum  objn, int argc)
{
    uchar *fn;
    int    err;
    
    NOREG((&objn))

    /* get a lock on the object */
    fn = mcmlck(ctx->runcxmem, objn);
    
    /* catch any errors, so we can unlock the object */
    ERRBEGIN(ctx->runcxerr)

    /* execute the object */
    runexe(ctx, fn, MCMONINV, objn, (prpnum)0, argc);

    /* in case of error, unlock the object and resignal the error */
    ERRCATCH(ctx->runcxerr, err)
        mcmunlck(ctx->runcxmem, objn);    /* release the lock on the object */
        if (err < ERR_RUNEXIT || err > ERR_RUNEXITOBJ)
            dbgdump(ctx->runcxdbg);                       /* dump the stack */
        errrse(ctx->runcxerr);
    ERREND(ctx->runcxerr)
    
    /* we're done with the object, so unlock it */
    mcmunlck(ctx->runcxmem, objn);
}

/*
 *   compress the heap - remove unreferenced items 
 */
void runhcmp(runcxdef *ctx, uint siz, uint below,
             runsdef *val1, runsdef *val2, runsdef *val3)
{
    uchar   *hp   = ctx->runcxheap;
    uchar   *htop = ctx->runcxhp;
    runsdef *stop = ctx->runcxsp + below;
    runsdef *stk  = ctx->runcxstk;
    runsdef *sp;
    uchar   *dst  = hp;
    uchar   *hnxt;
    int      ref;
    
    /* go through heap, finding references on stack */
    for ( ; hp < htop ; hp = hnxt)
    {
        hnxt = hp + osrp2(hp);                /* remember next heap element */

        for (ref = FALSE, sp = stk ; sp < stop ; ++sp)
        {
            switch(sp->runstyp)
            {
            case DAT_SSTRING:
            case DAT_LIST:
                if (sp->runsv.runsvstr == hp)    /* reference to this item? */
                {
                    ref = TRUE;             /* this heap item is referenced */
                    sp->runsv.runsvstr = dst;      /* reflect imminent move */
                }
                break;
                
            default:                /* other types do not refer to the heap */
                break;
            }
        }

        /* check the explicitly referenced value pointers as well */
#define CHECK_VAL(val) \
        if (val && val->runsv.runsvstr == hp) \
            ref = TRUE, val->runsv.runsvstr = dst;
        CHECK_VAL(val1);
        CHECK_VAL(val2);
        CHECK_VAL(val3);
#undef CHECK_VAL

        /* if referenced, copy it to dst and advance dst */
        if (ref)
        {
            if (hp != dst) memmove(dst, hp, (size_t)osrp2(hp));
            dst += osrp2(dst);
        }
    }

    /* set heap pointer based on shuffled heap */
    ctx->runcxhp = dst;
    
    /* check for space requested, and signal error if not available */
    if ((uint)(ctx->runcxhtop - ctx->runcxhp) < siz)
        runsig(ctx, ERR_HPOVF);
}

/*
 *   push a value onto the stack that's already been allocated in heap 
 */
void runrepush(runcxdef *ctx, runsdef *val)
{
    /* check for stack overflow */
    runstkovf(ctx);
    
    OSCPYSTRUCT(*(ctx->runcxsp), *val);

    /* increment stack pointer */
    ++(ctx->runcxsp);
}

/* push a counted-length string onto the stack */
void runpstr(runcxdef *ctx, char *str, int len, int sav)
{
    runsdef val;
    
    /* allocate space and set up new string */
    runhres(ctx, len+2, sav);
    oswp2(ctx->runcxhp, len+2);
    memcpy(ctx->runcxhp+2, str, (size_t)len);

    /* push return value */
    val.runsv.runsvstr = ctx->runcxhp;
    val.runstyp = DAT_SSTRING;
    ctx->runcxhp += len + 2;
    runrepush(ctx, &val);
}

/* push a C-style string, converting escape codes */
void runpushcstr(runcxdef *ctx, char *str, size_t len, int sav)
{
    char    *p;
    char    *dst;
    size_t   need;
    runsdef  val;
    
    /* determine how much space we'll need after converting escapes */
    for (p = str, need = len ; p < str + len ; ++p)
    {
        switch(*p)
        {
        case '\\':
        case '\n':
        case '\r':
        case '\t':
            /* these characters need to be escaped */
            ++need;
            break;

        default:
            break;
        }
    }

    /* reserve space */
    runhres(ctx, need + 2, sav);

    /* set up the length prefix */
    oswp2(ctx->runcxhp, need + 2);

    /* copy the string, expanding escapes */
    for (p = str, dst = (char *)ctx->runcxhp + 2 ; p < str + len ; ++p)
    {
        switch(*p)
        {
        case '\\':
            *dst++ = '\\';
            *dst++ = '\\';
            break;

        case '\n':
        case '\r':
            *dst++ = '\\';
            *dst++ = 'n';
            break;

        case '\t':
            *dst++ = '\\';
            *dst++ = '\t';
            break;

        default:
            *dst++ = *p;
            break;
        }
    }

    /* push the return value */
    val.runsv.runsvstr = ctx->runcxhp;
    val.runstyp = DAT_SSTRING;
    ctx->runcxhp += need + 2;
    runrepush(ctx, &val);
}

/* push a value onto the stack */
void runpush(runcxdef *ctx, dattyp typ, runsdef *val)
{
    int len;

    /* check for stack overflow */
    runstkovf(ctx);
    
    OSCPYSTRUCT(*(ctx->runcxsp), *val);
    ctx->runcxsp->runstyp = typ;

    /* variable-length data must be copied into the heap */
    if (typ == DAT_SSTRING || typ == DAT_LIST)
    {
        len = osrp2(val->runsv.runsvstr);
        runhres(ctx, len, 0);                      /* reserve space in heap */
        memcpy(ctx->runcxhp, val->runsv.runsvstr, (size_t)len);
        ctx->runcxsp->runsv.runsvstr = ctx->runcxhp;
        ctx->runcxhp += len;
    }
    
    /* increment stack pointer */
    ++(ctx->runcxsp);
}

/* push a number onto the stack */
void runpnum(runcxdef *ctx, long num)
{
    runsdef val;
    
    val.runsv.runsvnum = num;
    runpush(ctx, DAT_NUMBER, &val);
}

/* push an object onto the stack (or nil if obj is MCMONINV) */
void runpobj(runcxdef *ctx, objnum obj)
{
    runsdef val;
    
    if (obj == MCMONINV)
        runpnil(ctx);
    else
    {
        val.runsv.runsvobj = obj;
        runpush(ctx, DAT_OBJECT, &val);
    }
}

/* push nil */
void runpnil(runcxdef *ctx)
{
    runsdef val;
    runpush(ctx, DAT_NIL, &val);
}

/* copy datatype + value from a runsdef into a buffer (such as list) */
static void runputbuf(uchar *dstp, runsdef *val)
{
    *dstp++ = val->runstyp;
    switch(val->runstyp)
    {
    case DAT_LIST:
    case DAT_SSTRING:
        memcpy(dstp, val->runsv.runsvstr, (size_t)osrp2(val->runsv.runsvstr));
        break;
        
    case DAT_NUMBER:
        oswp4(dstp, val->runsv.runsvnum);
        break;
        
    case DAT_PROPNUM:
        oswp2(dstp, val->runsv.runsvprp);
        break;
        
    case DAT_OBJECT:
    case DAT_FNADDR:
        oswp2(dstp, val->runsv.runsvobj);
        break;
    }
}

/* push a value from a buffer (list, property, etc) onto stack */
void runpbuf(runcxdef *ctx, int typ, void *valp)
{
    runsdef val;
    
    switch(typ)
    {
    case DAT_NUMBER:
        val.runsv.runsvnum = osrp4(valp);
        break;
        
    case DAT_OBJECT:
    case DAT_FNADDR:
        val.runsv.runsvobj = osrp2(valp);
        break;
        
    case DAT_PROPNUM:
        val.runsv.runsvprp = osrp2(valp);
        break;
        
    case DAT_SSTRING:
    case DAT_LIST:
        val.runsv.runsvstr = (uchar *)valp;
        break;
        
    case DAT_NIL:
    case DAT_TRUE:
        break;
    }
    runpush(ctx, typ, &val);
}

/* compare items at top of stack for equality; TRUE->equal, FALSE->unequal */
int runeq(runcxdef *ctx)
{
    runsdef val1, val2;
    
    /* get values, and see if they have identical type; not equal if not */
    runpop(ctx, &val1);
    runpop(ctx, &val2);
    if (val1.runstyp != val2.runstyp) return(FALSE);
    
    /* types match, so check values */
    switch(val1.runstyp)
    {
    case DAT_NUMBER:
        return(val1.runsv.runsvnum == val2.runsv.runsvnum);
        
    case DAT_SSTRING:
    case DAT_LIST:
        return(osrp2(val1.runsv.runsvstr) == osrp2(val2.runsv.runsvstr)
               && !memcmp(val1.runsv.runsvstr, val2.runsv.runsvstr,
                          (size_t)osrp2(val1.runsv.runsvstr)));
        
    case DAT_PROPNUM:
        return(val1.runsv.runsvprp == val2.runsv.runsvprp);
        
    case DAT_OBJECT:
    case DAT_FNADDR:
        return(val1.runsv.runsvobj == val2.runsv.runsvobj);
        
    default:
        return(TRUE);
    }
}

/* compare magnitudes of numbers/strings at top of stack; strcmp-like value */
int runmcmp(runcxdef *ctx)
{
    if (runtostyp(ctx) == DAT_NUMBER)
    {
        long num2 = runpopnum(ctx);
        long num1 = runpopnum(ctx);
        
        if (num1 > num2) return(1);
        else if (num1 < num2) return(-1);
        else return(0);
    }
    else if (runtostyp(ctx) == DAT_SSTRING)
    {
        uchar *str2 = runpopstr(ctx);
        uchar *str1 = runpopstr(ctx);
        uint   len1 = osrp2(str1) - 2;
        uint   len2 = osrp2(str2) - 2;
        
        str1 += 2;
        str2 += 2;
        while (len1 && len2)
        {
            if (*str1 < *str2) return(-1);   /* character from 1 is greater */
            else if (*str1 > *str2) return(1);       /* char from 1 is less */
            
            ++str1;
            ++str2;
            --len1;
            --len2;
        }
        if (len1) return(1);    /* match up to len2, but string 1 is longer */
        else if (len2) return(-1);  /* match up to len1, but str2 is longer */
        else return(0);                            /* strings are identical */
    }
    else
    {
        runsig(ctx, ERR_INVCMP);
    }
    return 0;
}

/* determine size of a runsdef item */
int runsiz(runsdef *item)
{
    switch(item->runstyp)
    {
    case DAT_NUMBER:
        return(4);
    case DAT_SSTRING:
    case DAT_LIST:
        return(osrp2(item->runsv.runsvstr));
    case DAT_PROPNUM:
    case DAT_OBJECT:
    case DAT_FNADDR:
        return(2);
    default:
        return(0);
    }
}

/* find a sublist within a list */
uchar *runfind(uchar *lst, runsdef *item)
{
    uint len;
    uint curlen;
    
    for (len = osrp2(lst) - 2, lst += 2 ; len ; lst += curlen, len -= curlen)
    {
        if (*lst == item->runstyp)
        {
            switch(*lst)
            {
            case DAT_LIST:
            case DAT_SSTRING:
                if (osrp2(lst+1) == osrp2(item->runsv.runsvstr) &&
                   !memcmp(lst+1, item->runsv.runsvstr, (size_t)osrp2(lst+1)))
                    return(lst);
                break;
            case DAT_NUMBER:
                if (osrp4(lst+1) == item->runsv.runsvnum)
                    return(lst);
                break;

            case DAT_TRUE:
            case DAT_NIL:
                return(lst);

            case DAT_OBJECT:
            case DAT_FNADDR:
                if (osrp2(lst+1) == item->runsv.runsvobj)
                    return(lst);
                break;

            case DAT_PROPNUM:
                if (osrp2(lst+1) == item->runsv.runsvprp)
                    return(lst);
                break;
            }
        }
        curlen = datsiz(*lst, lst+1) + 1;
    }
    return((uchar *)0);
}

/* add values */
void runadd(runcxdef *ctx, runsdef *val, runsdef *val2, uint below)
{
    if (val->runstyp == DAT_LIST)
    {
        int     len1 = osrp2(val->runsv.runsvstr);
        int     len2 = runsiz(val2);
        int     newlen;

        /* if concatenating a list, take out length + datatype from 2nd */
        if (val2->runstyp == DAT_LIST)
            newlen = len1 + len2 - 2;          /* leave out second list len */
        else
            newlen = len1 + len2 + 1;             /* add in datatype header */

        /* get space in heap, copy first list, and set new length */
        runhres2(ctx, newlen, below, val, val2);
        memcpy(ctx->runcxhp, val->runsv.runsvstr, (size_t)len1);
        oswp2(ctx->runcxhp, newlen);

        /* append the new element or list of elements */
        if (val2->runstyp == DAT_LIST)
            memcpy(ctx->runcxhp + len1, val2->runsv.runsvstr + 2,
                   (size_t)(len2 - 2));
        else
            runputbuf(ctx->runcxhp + len1, val2);

        /* set up return value and update heap pointer */
        val->runsv.runsvstr = ctx->runcxhp;
        ctx->runcxhp += newlen;
    }
    else if (val->runstyp==DAT_SSTRING && val2->runstyp==DAT_SSTRING)
    {
        int len1 = osrp2(val->runsv.runsvstr);
        int len2 = osrp2(val2->runsv.runsvstr);

        /* reserve space, and concatenate the two strings */
        runhres2(ctx, len1 + len2 - 2, below, val, val2);
        memcpy(ctx->runcxhp, val->runsv.runsvstr, (size_t)len1);
        memcpy(ctx->runcxhp + len1, val2->runsv.runsvstr + 2,
               (size_t)len2 - 2);

        /* set length to sum of two lengths, minus 2nd length word */
        oswp2(ctx->runcxhp, len1 + len2 - 2);
        val->runsv.runsvstr = ctx->runcxhp;
        ctx->runcxhp += len1 + len2 - 2;
    }
    else if (val->runstyp == DAT_NUMBER && val2->runstyp == DAT_NUMBER)
        val->runsv.runsvnum += val2->runsv.runsvnum;
    else
        runsig(ctx, ERR_INVADD);
}

/* returns TRUE if value changed */
int runsub(runcxdef *ctx, runsdef *val, runsdef *val2, uint below)
{
    if (val->runstyp == DAT_LIST)
    {
        uchar *sublist;
        int    subsize;
        int    listsize;
        int    part1sz;

        if (val2->runstyp == DAT_LIST)
        {
            uchar *p1;
            uchar *p2;
            uint   rem1;
            uint   rem2;
            uchar *dst;

            /* reserve space for another copy of first list */
            listsize = runsiz(val);
            runhres2(ctx, listsize, below, val, val2);
            dst = ctx->runcxhp + 2;

            /* get pointer to first list */
            p1 = val->runsv.runsvstr;
            rem1 = osrp2(p1) - 2;
            p1 += 2;

            /*
             *   loop through left list, copying elements to output if
             *   not in the right list 
             */
            for ( ; rem1 ; lstadv(&p1, &rem1))
            {
                int found = FALSE;
                
                /* find current element of first list in second list */
                p2 = val2->runsv.runsvstr;
                rem2 = osrp2(p2) - 2;
                p2 += 2;
                for ( ; rem2 ; lstadv(&p2, &rem2))
                {
                    if (*p1 == *p2)
                    {
                        int siz1 = datsiz(*p1, p1+1);
                        int siz2 = datsiz(*p2, p2+1);

                        if (siz1 == siz2 &&
                            (siz1 == 0 || !memcmp(p1+1, p2+1, (size_t)siz1)))
                        {
                            found = TRUE;
                            break;
                        }
                    }
                }

                /* if this element wasn't found, copy to output list */
                if (!found)
                {
                    uint siz;
                    
                    *dst++ = *p1;
                    if ((siz = datsiz(*p1, p1+1)) != 0)
                    {
                        memcpy(dst, p1+1, siz);
                        dst += siz;
                    }
                }
            }

            /* we've built the list; write size and we're done */
            oswp2(ctx->runcxhp, dst - ctx->runcxhp);
            val->runsv.runsvstr = ctx->runcxhp;
            ctx->runcxhp = dst;
        }
        else if ((sublist = runfind(val->runsv.runsvstr, val2)) != 0)
        {
            subsize = datsiz(*sublist, sublist + 1) + 1;
            listsize = runsiz(val);
            part1sz = sublist - (uchar *)val->runsv.runsvstr;

            runhres2(ctx, listsize - subsize, below, val, val2);
            memcpy(ctx->runcxhp, val->runsv.runsvstr, (size_t)part1sz);
            memcpy(ctx->runcxhp + part1sz, sublist + subsize,
                   (size_t)(listsize - subsize - part1sz));
            oswp2(ctx->runcxhp, listsize - subsize);
            val->runsv.runsvstr = ctx->runcxhp;
            ctx->runcxhp += listsize - subsize;
        }
        else
        {
            return(FALSE);            /* no change - value can be re-pushed */
        }
    }
    else if (val->runstyp == DAT_NUMBER && val2->runstyp == DAT_NUMBER)
        val->runsv.runsvnum -= val2->runsv.runsvnum;
    else
        runsig(ctx, ERR_INVSUB);

    return(TRUE);                 /* value has changed; must be pushed anew */
}

/* return code pointer offset */
static uint runcpsav(runcxdef *ctx, uchar *noreg *cp, objnum obj, prpnum prop)
{
    uint ofs;

    VARUSED(prop);
    
    /* get offset from start of object */
    ofs = *cp - mcmobjptr(ctx->runcxmem, (mcmon)obj);

    /* clear the pointer so the caller knows the object is unlocked */
    *cp = 0;

    /* unlock the object, and return the derived offset */
    mcmunlck(ctx->runcxmem, (mcmon)obj);
    return(ofs);
}

/* restore code pointer based on object.property */
uchar *runcprst(runcxdef *ctx, uint ofs, objnum obj, prpnum prop)
{
    uchar *ptr;
    
    VARUSED(prop);
    
    /* lock object, and get pointer based on offset */
    ptr = mcmlck(ctx->runcxmem, (mcmon)obj) + ofs;
    
    return(ptr);
}

/* get offset of an element within a list */
static uint runindofs(runcxdef *ctx, uint indx, uchar *lstp)
{
    uint   lstsiz;
    uchar *orgp = lstp;
    
    /* verify that index is in range */
    if (indx <= 0) runsig(ctx, ERR_LOWINX);

    /* get list's size, and point to its data string */
    lstsiz = osrp2(lstp) - 2;
    lstp += 2;

    /* skip the first indx-1 elements */
    for (--indx ; indx && lstsiz ; --indx) lstadv(&lstp, &lstsiz);
    
    /* if we ran out of list, the index is out of range */
    if (!lstsiz) runsig(ctx, ERR_HIGHINX);
    
    /* return the offset */
    return((uint)(lstp - orgp));
}

/* push an indexed element of a list; index is tos, list is next on stack */
static void runpind(runcxdef *ctx, uint indx, uchar *lstp)
{
    uchar   *ele;
    runsdef  val;

    /* find the element we want to push */
    ele = lstp + runindofs(ctx, indx, lstp);

    /* reserve space first, in case lstp gets moved around */
    val.runstyp = DAT_LIST;
    val.runsv.runsvstr = lstp;
    runhres1(ctx, datsiz(*ele, ele + 1), 0, &val);
    if (val.runsv.runsvstr != lstp)
        ele = val.runsv.runsvstr + runindofs(ctx, indx, val.runsv.runsvstr);

    /* push the operand */
    runpbuf(ctx, *ele, ele+1);
}

/*
 *   Check a property to ensure that it's a data property.  Throws an
 *   error if the property contains a method.  This is used for debugger
 *   speculative evaluation to ensure that we don't call any methods from
 *   within speculative expressions.  
 */
static void runcheckpropdata(runcxdef *ctx, objnum obj, prpnum prop)
{
    uint    pofs;
    objnum  target;
    objdef *objptr;
    prpdef *prpptr;
    int     typ;

    /* if the object is invalid, it's an error */
    if (obj == MCMONINV)
        errsig(ctx->runcxerr, ERR_REQVOB);
    
    /* get the property */
    pofs = objgetap(ctx->runcxmem, obj, prop, &target, FALSE);

    /* if there's no property, it's okay - it will just return nil */
    if (pofs == 0)
        return;

    /* get the object */
    objptr = mcmlck(ctx->runcxmem, target);

    /* get the property */
    prpptr = (prpdef *)(((uchar *)objptr) + pofs);
    typ = prptype(prpptr);

    /* we're done with the object's memory now */
    mcmunlck(ctx->runcxmem, target);

    /* check the type */
    switch(typ)
    {
    case DAT_CODE:
    case DAT_DSTRING:
        /* 
         *   we can't call code or evaluate (i.e., print) double-quoted
         *   strings during speculative evaluation 
         */
        errsig(ctx->runcxerr, ERR_RTBADSPECEXPR);

    default:
        /* other types do not involve method calls, so they're okay */
        break;
    }
}

/* push an object's property */
void runpprop(runcxdef *ctx, uchar *noreg *codepp,
              objnum callobj, prpnum callprop,
              noreg objnum obj, prpnum prop, int inh, int argc, objnum self)
{
    uint     pofs;
    uint     saveofs;
    objdef  *objptr;
    prpdef  *prpptr;
    uchar   *val;
    int      typ;
    runsdef  sval;
    objnum   target;
    int      times_through = 0;
    int      err;
    objnum   otherobj;
    
    NOREG((&obj, &codepp));

    if (obj == MCMONINV) runsig(ctx, ERR_RUNNOBJ);
    
startover:
    pofs = objgetap(ctx->runcxmem, obj, prop, &target, inh);
    
    /* if nothing was found, push nil */
    if (!pofs)
    {
        runpush(ctx, DAT_NIL, &sval);
        return;
    }

    /* found a property; get the prpdef, and the value and type of data */
    objptr = mcmlck(ctx->runcxmem, target);
    ERRBEGIN(ctx->runcxerr)         /* catch errors so we can unlock object */

    prpptr = (prpdef *)(((uchar *)objptr) + pofs);
    val = prpvalp(prpptr);
    typ = prptype(prpptr);

    /* determine what to do based on property type */
    switch(typ)
    {
    case DAT_CODE:
        /* save caller's code offset - caller's object may move */
        if (codepp)
            saveofs = runcpsav(ctx, codepp, callobj, callprop);
        
        /* execute the code */
        runexe(ctx, val, self, target, prop, argc);
        
        /* restore caller's code pointer in case object moved */
        if (codepp)
            *codepp = runcprst(ctx, saveofs, callobj, callprop);
        break;

    case DAT_REDIR:
        otherobj = osrp2(val);
        break;

    case DAT_DSTRING:
        outfmt(ctx->runcxtio, val);
        break;
        
    case DAT_DEMAND:
        break;
        
    default:
        runpbuf(ctx, typ, val);
        break;
    }

    /* we're done - unlock the object */
    mcmunlck(ctx->runcxmem, target);

    /* if it's redirected, redirect it now */
    if (typ == DAT_REDIR)
    {
        runpprop(ctx, codepp, callobj, callprop, otherobj, prop,
                 FALSE, argc, otherobj);
    }

    /* if an error occurs, unlock the object, and resignal the error */
    ERRCATCH(ctx->runcxerr, err)
        mcmunlck(ctx->runcxmem, target);
        if (err < ERR_RUNEXIT || err > ERR_RUNEXITOBJ)
            dbgdump(ctx->runcxdbg);                       /* dump the stack */
        errrse(ctx->runcxerr);
    ERREND(ctx->runcxerr)

    /* apply special handling for set-on-first-use data */
    if (typ == DAT_DEMAND)
    {
        /*
         *   if we've already done this, the property isn't being set by
         *   the callback, so we'll never get out of this loop - abort if
         *   so 
         */
        if (++times_through != 1)
            runsig(ctx, ERR_DMDLOOP);

        /* save caller's code offset - caller's object may move */
        if (codepp)
            saveofs = runcpsav(ctx, codepp, callobj, callprop);

        /* invoke the callback to set the property on demand */
        (*ctx->runcxdmd)(ctx->runcxdmc, obj, prop);

        /* restore caller's code pointer */
        if (codepp)
            *codepp = runcprst(ctx, saveofs, callobj, callprop);

        /* try again now that it's been set up */
        goto startover;
    }
}

/* ======================================================================== */
/*
 *   user exit callbacks 
 */

static int runuftyp(runuxdef *ctx)
{
    return(runtostyp(ctx->runuxctx));
}

static long runufnpo(runuxdef *ctx)
{
    return(runpopnum(ctx->runuxctx));
}

static uchar *runufspo(runuxdef *ctx)
{
    return(runpopstr(ctx->runuxctx));
}

static void runufdsc(runuxdef *ctx)
{
    rundisc(ctx->runuxctx);
}

static void runufnpu(runuxdef *ctx, long num)
{
    runpnum(ctx->runuxctx, num);
}

static void runufspu(runuxdef *ctx, uchar *str)
{
    runsdef val;
    
    val.runstyp = DAT_SSTRING;
    val.runsv.runsvstr = str - 2;
    runrepush(ctx->runuxctx, &val);
}

static void runufcspu(runuxdef *ctx, char *str)
{
    runpstr(ctx->runuxctx, str, (int)strlen(str), ctx->runuxargc);
}

static uchar *runufsal(runuxdef *ctx, int len)
{
    uchar *ret;
    
    len += 2;
    runhres(ctx->runuxctx, len, ctx->runuxargc);
    ret = ctx->runuxctx->runcxhp;
    oswp2(ret, len);
    ret += 2;
    
    ctx->runuxctx->runcxhp += len;
    return(ret);
}

static void runuflpu(runuxdef *ctx, int typ)
{
    runsdef val;
    
    val.runstyp = typ;
    runrepush(ctx->runuxctx, &val);
}



/* convert an osrp2 value to a signed short value */
#define runrp2s(p) ((short)(ushort)osrp2(p))


/* ======================================================================== */
/*
 *   execute p-code 
 */
void runexe(runcxdef *ctx, uchar *p0, objnum self, objnum target,
            prpnum targprop, int argc)
{
    uchar    *noreg p = p0;
    uchar     opc;                     /* opcode we're currently working on */
    runsdef   val;                           /* stack element (for pushing) */
    runsdef   val2;     /* another one (for popping in two-op instructions) */
    uint      ofs;                   /* offset in code of current execution */
    prpnum    prop;                         /* property number, when needed */
    objnum    obj;                            /* object number, when needed */
    runsdef  *noreg rstsp;        /* sp to reset to on DISCARD instructions */
    uchar    *lstp;                                         /* list pointer */
    int       nargc;                   /* argument count of called function */
    runsdef  *valp;
    runsdef  *stkval;
    int       i;
    int       brkchk;

#ifndef DBG_OFF
    int       err;
#endif

    NOREG((&rstp, &p));
    
    /* save entry SP - this is reset point until ENTER */
    rstsp = ctx->runcxsp;

#ifndef DBG_OFF
    /*
     *   For the debugger's sake, set up an error frame so that we catch
     *   any errors thrown during p-code execution within this function.
     *   If an error occurs, and the debugger is present, we'll set the
     *   instruction pointer back to the start of the line that caused the
     *   error and enter the debugger with the error indication.  If the
     *   debugger isn't present, we'll simply re-throw the error.  This
     *   entire block can be compiled out of the execution engine when
     *   linking a stand-alone (non-debug) version of the run-time.  
     */
resume_from_error:
    ERRBEGIN(ctx->runcxerr)
#endif /* DBG_OFF */
    
    for (brkchk = 0 ;; ++brkchk)
    {
        /* check for break - signal if user has hit break */
#ifndef ANDGLK
        if (brkchk == 1000)
#endif
        {
            brkchk = 0;
            if (os_break()) runsig(ctx, ERR_USRINT);
        }
        
        opc = *p++;

        switch(opc)
        {
        case OPCPUSHNUM:
            val.runsv.runsvnum = osrp4(p);
            runpush(ctx, DAT_NUMBER, &val);
            p += 4;
            break;
            
        case OPCPUSHOBJ:
            val.runsv.runsvobj = osrp2(p);
            runpush(ctx, DAT_OBJECT, &val);
            p += 2;
            break;
            
        case OPCPUSHSELF:
            val.runsv.runsvobj = self;
            runpush(ctx, DAT_OBJECT, &val);
            break;

        case OPCPUSHSTR:
            val.runsv.runsvstr = p;
            runpush(ctx, DAT_SSTRING, &val);
            p += osrp2(p);                              /* skip past string */
            break;
            
        case OPCPUSHLST:
            val.runsv.runsvstr = p;
            runpush(ctx, DAT_LIST, &val);
            p += osrp2(p);                                /* skip past list */
            break;
            
        case OPCPUSHNIL:
            runpush(ctx, DAT_NIL, &val);
            break;
            
        case OPCPUSHTRUE:
            runpush(ctx, DAT_TRUE, &val);
            break;
            
        case OPCPUSHFN:
            val.runsv.runsvobj = osrp2(p);
            runpush(ctx, DAT_FNADDR, &val);
            p += 2;
            break;
            
        case OPCPUSHPN:
            val.runsv.runsvprp = osrp2(p);
            runpush(ctx, DAT_PROPNUM, &val);
            p += 2;
            break;
            
        case OPCNEG:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = -runpopnum(ctx);
            runrepush(ctx, &val);
            break;
            
        case OPCBNOT:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = ~runpopnum(ctx);
            runrepush(ctx, &val);
            break;
            
        case OPCNOT:
            if (runtoslog(ctx))
                runpush(ctx, runclog(!runpoplog(ctx)), &val);
            else
                runpush(ctx, runclog(runpopnum(ctx)), &val);
            break;
            
        case OPCADD:
            runpop(ctx, &val2);    /* right op is pushed last -> popped 1st */
            runpop(ctx, &val);
            runadd(ctx, &val, &val2, 2);
            runrepush(ctx, &val);
            break;
            
        case OPCSUB:
            runpop(ctx, &val2);    /* right op is pushed last -> popped 1st */
            runpop(ctx, &val);
            (void)runsub(ctx, &val, &val2, 2);
            runrepush(ctx, &val);
            break;

        case OPCMUL:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = runpopnum(ctx) * runpopnum(ctx);
            runrepush(ctx, &val);
            break;
            
        case OPCBAND:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = runpopnum(ctx) & runpopnum(ctx);
            runrepush(ctx, &val);
            break;
            
        case OPCBOR:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = runpopnum(ctx) | runpopnum(ctx);
            runrepush(ctx, &val);
            break;

        case OPCSHL:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = runpopnum(ctx);
            val.runsv.runsvnum = runpopnum(ctx) << val.runsv.runsvnum;
            runrepush(ctx, &val);
            break;

        case OPCSHR:
            val.runstyp = DAT_NUMBER;
            val.runsv.runsvnum = runpopnum(ctx);
            val.runsv.runsvnum = runpopnum(ctx) >> val.runsv.runsvnum;
            runrepush(ctx, &val);
            break;
            
        case OPCXOR:
            /* allow logical ^ logical or number ^ number */
            if (runtoslog(ctx))
            {
                int a, b;

                /* logicals - return a logical value */
                a = runpoplog(ctx);
                b = runpoplog(ctx);
                val.runstyp = runclog(a ^ b);
            }
            else
            {
                /* numeric value - return binary xor */
                val.runstyp = DAT_NUMBER;
                val.runsv.runsvnum = runpopnum(ctx) ^ runpopnum(ctx);
            }
            runrepush(ctx, &val);
            break;
            
        case OPCDIV:
            val.runsv.runsvnum = runpopnum(ctx);
            if (val.runsv.runsvnum == 0)
                runsig(ctx, ERR_DIVZERO);
            val.runsv.runsvnum = runpopnum(ctx) / val.runsv.runsvnum;
            val.runstyp = DAT_NUMBER;
            runrepush(ctx, &val);
            break;

        case OPCMOD:
            val.runsv.runsvnum = runpopnum(ctx);
            if (val.runsv.runsvnum == 0)
                runsig(ctx, ERR_DIVZERO);
            val.runsv.runsvnum = runpopnum(ctx) % val.runsv.runsvnum;
            val.runstyp = DAT_NUMBER;
            runrepush(ctx, &val);
            break;
            
#ifdef NEVER
        case OPCAND:
            if (runtostyp(ctx) == DAT_LIST)
                runlstisect(ctx);
            else
                runpush(ctx, runclog(runpoplog(ctx) && runpoplog(ctx)), &val);
            break;
            
        case OPCOR:
            runpush(ctx, runclog(runpoplog(ctx) || runpoplog(ctx)), &val);
            break;
#endif /* NEVER */

        case OPCEQ:
            runpush(ctx, runclog(runeq(ctx)), &val);
            break;
            
        case OPCNE:
            runpush(ctx, runclog(!runeq(ctx)), &val);
            break;
            
        case OPCLT:
            runpush(ctx, runclog(runmcmp(ctx) < 0), &val);
            break;
            
        case OPCLE:
            runpush(ctx, runclog(runmcmp(ctx) <= 0), &val);
            break;
            
        case OPCGT:
            runpush(ctx, runclog(runmcmp(ctx) > 0), &val);
            break;
            
        case OPCGE:
            runpush(ctx, runclog(runmcmp(ctx) >= 0), &val);
            break;
            
        case OPCCALL:
            {
                objnum o;

                /* get the argument count */
                nargc = *p++;

                /* ensure we have enough values to pass as arguments */
                runcheckargc(ctx, &nargc);
            
                /* object could move--save offset to restore 'p' after call */
                o = osrp2(p);
                ofs = runcpsav(ctx, &p, target, targprop);

                /* execute the function */
                runfn(ctx, o, nargc);

                /* restore code pointer in case target object moved */
                p = runcprst(ctx, ofs, target, targprop) + 2;
                break;
            }
        
        case OPCGETP:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = osrp2(p);
            p += 2;
            obj = runpopobj(ctx);
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE, nargc,
                     obj);
            break;

        case OPCGETPDATA:
            prop = osrp2(p);
            p += 2;
            obj = runpopobj(ctx);
            runcheckpropdata(ctx, obj, prop);
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE, 0, obj);
            break;

        case OPCGETDBLCL:
            {
                objnum   frobj;
                uint     frofs;
                runsdef *otherbp;
                
                frobj = osrp2(p);
                frofs = osrp2(p + 2);
                otherbp = dbgfrfind(ctx->runcxdbg, frobj, frofs);
                runrepush(ctx, otherbp + runrp2s(p + 4) - 1);
                p += 6;
            }
            break;

        case OPCGETLCL:
            runrepush(ctx, ctx->runcxbp + runrp2s(p) - 1);
            p += 2;
            break;
            
        case OPCRETURN:
            runleave(ctx, argc /* was: osrp2(p) */);
            dbgleave(ctx->runcxdbg, DBGEXRET);
            goto done;
            
        case OPCRETVAL:
            /* if there's nothing on the stack, return nil */
            if (runtostyp(ctx) != DAT_BASEPTR)
                runpop(ctx, &val);
            else
                val.runstyp = DAT_NIL;
            
            runleave(ctx, argc /* was: osrp2(p) */);
            runrepush(ctx, &val);
            dbgleave(ctx->runcxdbg, DBGEXVAL);
            goto done;
            
        case OPCENTER:
            /* push old base pointer and set up new one */
            ctx->runcxsp = rstsp;
            val.runsv.runsvstr = (uchar *)ctx->runcxbp;
            runpush(ctx, DAT_BASEPTR, &val);
            ctx->runcxbp = ctx->runcxsp;
    
            /* add a trace record */
            dbgenter(ctx->runcxdbg, ctx->runcxbp, self, target, targprop,
                     0, argc);

            /* initialize locals to nil */
            for (i = osrp2(p) ; i ; --i) runpush(ctx, DAT_NIL, &val);
            p += 2;                         /* skip the local count operand */
            
            /* save stack pointer - reset sp to this value on DISCARD */
            rstsp = ctx->runcxsp;
            break;
            
        case OPCDISCARD:
            ctx->runcxsp = rstsp;
            break;
            
        case OPCSWITCH:
        {
            int      i;
            int      tostyp;
            int      match, typmatch;
            
            runpop(ctx, &val);
            tostyp = val.runstyp;
            switch(tostyp)
            {
            case DAT_SSTRING:
                tostyp = OPCPUSHSTR;
                break;
            case DAT_LIST:
                tostyp = OPCPUSHLST;
                break;
            case DAT_PROPNUM:
                tostyp = OPCPUSHPN;
                break;
            case DAT_FNADDR:
                tostyp = OPCPUSHFN;
                break;
            case DAT_TRUE:
                tostyp = OPCPUSHTRUE;
                break;
            case DAT_NIL:
                tostyp = OPCPUSHNIL;
                break;
            }
            
            p += osrp2(p);                         /* find the switch table */
            i = osrp2(p);                            /* get number of cases */

            /* look for a matching case */
            for (match = FALSE ; i && !match ; --i)
            {
                p += 2;                     /* skip previous jump/size word */
                typmatch = (*p == tostyp);
                switch(*p++)
                {
                case OPCPUSHNUM:
                    match = (typmatch
                             && val.runsv.runsvnum == osrp4(p));
                    p += 4;
                    break;
                        
                case OPCPUSHLST:
                case OPCPUSHSTR:
                    match = (typmatch
                             && osrp2(val.runsv.runsvstr) == osrp2(p)
                             && !memcmp(val.runsv.runsvstr,
                                        p, (size_t)osrp2(p)));
                    p += runrp2s(p);
                    break;
                        
                case OPCPUSHPN:
                    match = (typmatch
                             && val.runsv.runsvprp == osrp2(p));
                    p += 2;
                    break;
                        
                case OPCPUSHOBJ:
                case OPCPUSHFN:
                    match = (typmatch
                             && val.runsv.runsvobj == osrp2(p));
                    p += 2;
                    break;
                    
                case OPCPUSHSELF:
                    match = (typmatch && val.runsv.runsvobj == self);
                    break;
                        
                case OPCPUSHTRUE:
                case OPCPUSHNIL:
                    match = typmatch;
                    break;
                }
            }

            if (!match) p += 2;         /* if default, skip to default case */
            p += runrp2s(p);      /* wherever we left off, p points to jump */
            break;
        }

        case OPCJMP:
            p += runrp2s(p);
            break;
            
        case OPCJT:
            if (runtoslog(ctx))
                p += (runpoplog(ctx) ? runrp2s(p) : 2);
            else
                p += (runpopnum(ctx) != 0 ? runrp2s(p) : 2);
            break;
            
        case OPCJF:
            if (runtoslog(ctx))
                p += ((!runpoplog(ctx)) ? runrp2s(p) : 2);
            else if (runtostyp(ctx) == DAT_NUMBER)
                p += ((runpopnum(ctx) == 0) ? runrp2s(p) : 2);
            else                      /* consider any other type to be true */
            {
                rundisc(ctx);  /* throw away the item considered to be true */
                p += 2;
            }
            break;
            
        case OPCSAY:
            outfmt(ctx->runcxtio, p);
            p += osrp2(p);                              /* skip past string */
            break;
            
        case OPCBUILTIN:
            {
                int      binum;
                runsdef *stkp;

                nargc = *p++;
                runcheckargc(ctx, &nargc);
                binum = osrp2(p);
                ofs = runcpsav(ctx, &p, target, targprop);
                stkp =  ctx->runcxsp - nargc;

                dbgenter(ctx->runcxdbg, ctx->runcxsp + 1, MCMONINV, MCMONINV,
                         (prpnum)0, binum, nargc);
                (*ctx->runcxbi[binum])((struct bifcxdef *)ctx->runcxbcx,
                                       nargc);
                dbgleave(ctx->runcxdbg,
                         ctx->runcxsp != stkp ? DBGEXVAL : DBGEXRET);

                p = runcprst(ctx, ofs, target, targprop);
                p += 2;
                break;
            }
            
        case OPCPTRCALL:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            ofs = runcpsav(ctx, &p, target, targprop);
            runfn(ctx, runpopfn(ctx), nargc);
            p = runcprst(ctx, ofs, target, targprop);
            break;
            
        case OPCINHERIT:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = osrp2(p);
            p += 2;
            runpprop(ctx, &p, target, targprop, target, prop, TRUE, nargc,
                     self);
            break;

        case OPCPTRINH:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = runpopprp(ctx);
            runpprop(ctx, &p, target, targprop, target, prop, TRUE, nargc,
                     self);
            break;
            
        case OPCPTRGETP:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = runpopprp(ctx);
            obj = runpopobj(ctx);
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE, nargc,
                     obj);
            break;

        case OPCPTRGETPDATA:
            prop = runpopprp(ctx);
            obj = runpopobj(ctx);
            runcheckpropdata(ctx, obj, prop);
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE, 0, obj);
            break;
            
        case OPCEXPINH:
            /* inheritance from explicit superclass */
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = osrp2(p);
            obj = osrp2(p + 2);
            p += 4;

            /* 
             *   Evaluate the property of the given object, but keeping
             *   the same 'self' as is currently in effect.  Note that the
             *   'inherit' flag is FALSE in this call, even though we're
             *   inheriting, because the opcode explicitly specifies the
             *   object we want to inherit from.  
             */
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE,
                     nargc, self);
            break;

        case OPCEXPINHPTR:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = runpopprp(ctx);
            obj = osrp2(p);
            p += 2;
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE,
                     nargc, self);
            break;
            
        case OPCPASS:
            prop = osrp2(p);
            runleave(ctx, 0);
            dbgleave(ctx->runcxdbg, DBGEXPASS);
            runpprop(ctx, &p, target, targprop, target, prop, TRUE, argc,
                     self);
            goto done;
            
        case OPCEXIT:
            errsig(ctx->runcxerr, ERR_RUNEXIT);
            /* NOTREACHED */
            
        case OPCABORT:
            errsig(ctx->runcxerr, ERR_RUNABRT);
            /* NOTREACHED */
            
        case OPCASKDO:
            errsig(ctx->runcxerr, ERR_RUNASKD);
            /* NOTREACHED */
            
        case OPCASKIO:
            errsig1(ctx->runcxerr, ERR_RUNASKI, ERRTINT, osrp2(p));
            /* NOTREACHED */
            
        case OPCJE:
            p += (runeq(ctx) ? runrp2s(p) : 2);
            break;
            
        case OPCJNE:
            p += (!runeq(ctx) ? runrp2s(p) : 2);
            break;
            
        case OPCJGT:
            p += (runmcmp(ctx) > 0 ? runrp2s(p) : 2);
            break;
            
        case OPCJGE:
            p += (runmcmp(ctx) >= 0 ? runrp2s(p) : 2);
            break;
            
        case OPCJLT:
            p += (runmcmp(ctx) < 0 ? runrp2s(p) : 2);
            break;
            
        case OPCJLE:
            p += (runmcmp(ctx) <= 0 ? runrp2s(p) : 2);
            break;
            
        case OPCJNAND:
            p += (!(runpoplog(ctx) && runpoplog(ctx)) ? runrp2s(p) : 2);
            break;
            
        case OPCJNOR:
            p += (!(runpoplog(ctx) || runpoplog(ctx)) ? runrp2s(p) : 2);
            break;
            
        case OPCGETPSELF:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = osrp2(p);
            p += 2;
            runpprop(ctx, &p, target, targprop, self, prop, FALSE, nargc,
                     self);
            break;
            
        case OPCGETPSELFDATA:
            prop = osrp2(p);
            p += 2;
            runcheckpropdata(ctx, self, prop);
            runpprop(ctx, &p, target, targprop, self, prop, FALSE, 0, self);
            break;

        case OPCGETPPTRSELF:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            prop = runpopprp(ctx);
            runpprop(ctx, &p, target, targprop, self, prop, FALSE, nargc,
                     self);
            break;
            
        case OPCGETPOBJ:
            nargc = *p++;
            runcheckargc(ctx, &nargc);
            obj = osrp2(p);
            prop = osrp2(p+2);
            p += 4;
            runpprop(ctx, &p, target, targprop, obj, prop, FALSE, nargc,
                     obj);
            break;
            
        case OPCINDEX:
            i = runpopnum(ctx);                                /* get index */
            lstp = runpoplst(ctx);                          /* get the list */
            runpind(ctx, i, lstp);
            break;
            
        case OPCJST:
            if (runtostyp(ctx) == DAT_TRUE)
                p += runrp2s(p);
            else
            {
                (void)runpoplog(ctx);
                p += 2;
            }
            break;
            
        case OPCJSF:
            if (runtostyp(ctx) == DAT_NIL ||
                (runtostyp(ctx) == DAT_NUMBER &&
                 (ctx->runcxsp - 1)->runsv.runsvnum == 0))
                p += runrp2s(p);
            else
            {
                runpop(ctx, &val);
                p += 2;
            }
            break;
            
        case OPCCALLEXT:
            {
                static runufdef uf =
                {
                    runuftyp,  runufnpo,  runufspo,  runufdsc,
                    runufnpu,  runufspu,  runufcspu, runufsal,
                    runuflpu
                };
                int        fn;
                runxdef   *ex;
                runuxdef   ux;
                
                /* set up callback context */
                ux.runuxctx  = ctx;
                ux.runuxvec  = &uf;
                ux.runuxargc = *p++;

                fn = osrp2(p);
                p += 2;
                ex = &ctx->runcxext[fn];
                
#if 0
/*
 *   External functions are now obsolete - do not attempt to call 
 */
                if (!ex->runxptr)
                {
                    if ((ex->runxptr = os_exfil(ex->runxnam)) == 0)
                        runsig1(ctx, ERR_EXTLOAD, ERRTSTR, ex->runxnam);
                }
                if (os_excall(ex->runxptr, &ux))
                    runsig1(ctx, ERR_EXTRUN, ERRTSTR, ex->runxnam);
#else
                /* external functions are obsolete - throw an error */
                runsig1(ctx, ERR_EXTRUN, ERRTSTR, ex->runxnam);
#endif
            }
            break;
            
        case OPCDBGRET:
            goto done;
            
        case OPCCONS:
            {
                uint    totsiz;
                uint    oldsiz;
                uint    tot;
                uint    cursiz;
                runsdef lstend;
                
                tot = i = osrp2(p);    /* get # of items to build into list */
                p += 2;

                /* reserve space for initial list (w/length word only) */
                runhres(ctx, 2, 0);
                
                /*
                 *   Set up value to point to output list, making room
                 *   for length prefix.  Remember size-so-far separately.
                 */
                lstend.runstyp = DAT_LIST;
                lstend.runsv.runsvstr = ctx->runcxhp;
                ctx->runcxhp += 2;
                totsiz = 2;

                while (i--)
                {
                    runpop(ctx, &val);          /* get next value off stack */
                    cursiz = runsiz(&val);

                    /*
                     *   Set up to allocate space.  Before doing so, make
                     *   sure the list under construction is valid, to
                     *   ensure that it stays around after garbage
                     *   collection. 
                     */
                    oldsiz = totsiz;
                    totsiz += cursiz + 1;
                    oswp2(lstend.runsv.runsvstr, oldsiz);
                    ctx->runcxhp = lstend.runsv.runsvstr + oldsiz;
                    runhres2(ctx, cursiz + 1, tot - i, &val, &lstend);

                    /* write this item to the list */
                    runputbuf(lstend.runsv.runsvstr + oldsiz, &val);
                }
                oswp2(lstend.runsv.runsvstr, totsiz);
                ctx->runcxhp = lstend.runsv.runsvstr + totsiz;
                runrepush(ctx, &lstend);
            }
            break;
            
        case OPCARGC:
            val.runsv.runsvnum = argc;
            runpush(ctx, DAT_NUMBER, &val);
            break;
            
        case OPCCHKARGC:
            if ((*p & 0x80) ? argc < (*p & 0x7f) : argc != *p)
            {
                char namebuf[128];
                size_t namelen;
                
                /* 
                 *   debugger is present - look up the name of the current
                 *   function or method, so that we can report it in the
                 *   error message 
                 */
                if (targprop == 0)
                {
                    /* we're in a function */
                    namelen = dbgnam(ctx->runcxdbg, namebuf, TOKSTFUNC,
                                     target);
                }
                else
                {
                    /* we're in an object.method */
                    namelen = dbgnam(ctx->runcxdbg, namebuf, TOKSTOBJ,
                                     target);
                    namebuf[namelen++] = '.';
                    namelen += dbgnam(ctx->runcxdbg, namebuf + namelen,
                                      TOKSTPROP, targprop);
                }
                namebuf[namelen] = '\0';
                runsig1(ctx, ERR_ARGC, ERRTSTR, namebuf);
            }
            ++p;
            break;
            
        case OPCLINE:
        case OPCBP:
            {
                uchar *ptr = mcmobjptr(ctx->runcxmem, (mcmon)target);
                uint   ofs;
                uchar  instr;

                /* set up the debugger frame record for this line */
                dbgframe(ctx->runcxdbg, osrp2(p+1), p - ptr);

                /* remember the instruction */
                instr = *(p-1);

                /* remember the offset of the line record */
                ctx->runcxlofs = ofs = (p + 2 - ptr);

                /* skip to the next instruction */
                p += *p;

                /* let the debugger take over, if it wants to */
                dbgssi(ctx->runcxdbg, ofs, instr, 0, &p);
                break;
            }
            
        case OPCFRAME:
            /* this is a frame record - just jump past it */
            p += osrp2(p);
            break;
            
        case OPCASI_MASK | OPCASIDIR | OPCASILCL:
            runpop(ctx, &val);
            OSCPYSTRUCT(*(ctx->runcxbp + runrp2s(p) - 1), val);
            stkval = &val;
            p += 2;
            goto no_assign;
            
        case OPCASI_MASK | OPCASIDIR | OPCASIPRP:
            obj = runpopobj(ctx);
            prop = osrp2(p);
            p += 2;
            runpop(ctx, &val);
            stkval = valp = &val;
            goto assign_property;

        case OPCASI_MASK | OPCASIDIR | OPCASIPRPPTR:
            prop = runpopprp(ctx);
            obj = runpopobj(ctx);
            runpop(ctx, &val);
            stkval = valp = &val;
            goto assign_property;

        case OPCNEW:
            run_new(ctx, &p, target, targprop);
            break;
            
        case OPCDELETE:
            run_delete(ctx, &p, target, targprop);
            break;
            
        default:
            if ((opc & OPCASI_MASK) == OPCASI_MASK)
            {
                runsdef  val3;
                int      asityp;
                int      asiext;
                int      lclnum;

                valp = &val;
                stkval = &val;

                asityp = (opc & OPCASITYP_MASK);
                if (asityp == OPCASIEXT)
                    asiext = *p++;
                
                /* get list element/property number if needed */
                switch(opc & OPCASIDEST_MASK)
                {
                case OPCASIPRP:
                    obj = runpopobj(ctx);
                    prop = osrp2(p);
                    p += 2;
                    break;

                case OPCASIPRPPTR:
                    prop = runpopprp(ctx);
                    obj = runpopobj(ctx);
                    break;
                    
                case OPCASIIND:
                    i = runpopnum(ctx);
                    lstp = runpoplst(ctx);
                    break;

                case OPCASILCL:
                    lclnum = runrp2s(p);
                    p += 2;
                    break;
                }
                
                if (asityp != OPCASIDIR)
                {
                    /* we have an <op>= operator - get lval, modify, & set */
                    switch(opc & OPCASIDEST_MASK)
                    {
                    case OPCASILCL:
                        OSCPYSTRUCT(val, *(ctx->runcxbp + lclnum - 1));
                        break;
                        
                    case OPCASIPRP:
                    case OPCASIPRPPTR:
                        runpprop(ctx, &p, target, targprop, obj, prop,
                                 FALSE, 0, obj);
                        runpop(ctx, &val);
                        break;

                    case OPCASIIND:
                        runpind(ctx, i, lstp);
                        runpop(ctx, &val);
                        break;
                    }
                    
                    /* if saving pre-inc/dec value, get the value now */
                    if ((opc & OPCASIPRE_MASK) == OPCASIPOST)
                    {
                        OSCPYSTRUCT(val3, val);
                        stkval = &val3;
                    }
                }
                
                /* get rvalue, except for inc/dec operations */
                if (asityp != OPCASIINC && asityp != OPCASIDEC)
                    runpop(ctx, &val2);
                
                /* now apply operation to lvalue using rvalue */
                switch(asityp)
                {
                case OPCASIADD:
                    if ((opc & OPCASIIND) != 0)
                    {
                        runsdef val4;

                        /* 
                         *   we're adding to an indexed value out of a list -
                         *   we need to make sure the list is protected from
                         *   garbage collection, so push it back on the stack
                         *   while we're working 
                         */
                        val4.runstyp = DAT_LIST;
                        val4.runsv.runsvstr = lstp;
                        runrepush(ctx, &val4);

                        /* carry out the addition */
                        runadd(ctx, &val, &val2, 2);

                        /* 
                         *   in case the list got moved during garbage
                         *   collection, retrieve it from the stack 
                         */
                        lstp = runpoplst(ctx);
                    }
                    else
                    {
                        /* no list indexing - just carry out the addition */
                        runadd(ctx, &val, &val2, 2);
                    }
                    break;
                    
                case OPCASISUB:
                    if ((opc & OPCASIIND) != 0)
                    {
                        runsdef val4;
                        int result;

                        /* as with adding, protect the list from GC */
                        val4.runstyp = DAT_LIST;
                        val4.runsv.runsvstr = lstp;
                        runrepush(ctx, &val4);

                        /* carry out the subtraction and note the result */
                        result = runsub(ctx, &val, &val2, 2);

                        /* recover the list pointer */
                        lstp = runpoplst(ctx);

                        /* check to see if we have an assignment */
                        if (!result)
                            goto no_assign;
                    }
                    else
                    {
                        /* no list indexing - just do the subtraction */
                        if (!runsub(ctx, &val, &val2, 2))
                            goto no_assign;
                    }
                    break;
                    
                case OPCASIMUL:
                    if (val.runstyp != DAT_NUMBER
                        || val2.runstyp != DAT_NUMBER)
                        runsig(ctx, ERR_REQNUM);
                    val.runsv.runsvnum *= val2.runsv.runsvnum;
                    break;
                    
                case OPCASIDIV:
                    if (val.runstyp != DAT_NUMBER
                        || val2.runstyp != DAT_NUMBER)
                        runsig(ctx, ERR_REQNUM);
                    if (val2.runsv.runsvnum == 0)
                        runsig(ctx, ERR_DIVZERO);
                    val.runsv.runsvnum /= val2.runsv.runsvnum;
                    break;
                    
                case OPCASIINC:
                    if (val.runstyp != DAT_NUMBER)
                        runsig(ctx, ERR_REQNUM);
                    ++(val.runsv.runsvnum);
                    break;
                    
                case OPCASIDEC:
                    if (val.runstyp != DAT_NUMBER)
                        runsig(ctx, ERR_REQNUM);
                    --(val.runsv.runsvnum);
                    break;
                    
                case OPCASIDIR:
                    valp = stkval = &val2;
                    break;

                case OPCASIEXT:
                    switch (asiext)
                    {
                    case OPCASIMOD:
                        if (val.runstyp != DAT_NUMBER
                            || val2.runstyp != DAT_NUMBER)
                            runsig(ctx, ERR_REQNUM);
                        if (val2.runsv.runsvnum == 0)
                            runsig(ctx, ERR_DIVZERO);
                        val.runsv.runsvnum %= val2.runsv.runsvnum;
                        break;

                    case OPCASIBAND:
                        if ((val.runstyp == DAT_TRUE
                             || val.runstyp == DAT_NIL)
                            && (val2.runstyp == DAT_TRUE
                                || val2.runstyp == DAT_NIL))
                        {
                            int a, b;

                            a = (val.runstyp == DAT_TRUE ? 1 : 0);
                            b = (val2.runstyp == DAT_TRUE ? 1 : 0);
                            val.runstyp = runclog(a && b);
                        }
                        else if (val.runstyp == DAT_NUMBER
                                 && val2.runstyp == DAT_NUMBER)
                            val.runsv.runsvnum &= val2.runsv.runsvnum;
                        else
                            runsig(ctx, ERR_REQNUM);
                        break;
                        
                    case OPCASIBOR:
                        if ((val.runstyp == DAT_TRUE
                             || val.runstyp == DAT_NIL)
                            && (val2.runstyp == DAT_TRUE
                                || val2.runstyp == DAT_NIL))
                        {
                            int a, b;

                            a = (val.runstyp == DAT_TRUE ? 1 : 0);
                            b = (val2.runstyp == DAT_TRUE ? 1 : 0);
                            val.runstyp = runclog(a || b);
                        }
                        else if (val.runstyp == DAT_NUMBER
                                 && val2.runstyp == DAT_NUMBER)
                            val.runsv.runsvnum |= val2.runsv.runsvnum;
                        else
                            runsig(ctx, ERR_REQNUM);
                        break;
                        
                    case OPCASIXOR:
                        if ((val.runstyp == DAT_TRUE || val.runstyp == DAT_NIL)
                            && (val2.runstyp == DAT_TRUE
                                || val2.runstyp == DAT_NIL))
                        {
                            int a, b;

                            a = (val.runstyp == DAT_TRUE ? 1 : 0);
                            b = (val2.runstyp == DAT_TRUE ? 1 : 0);
                            val.runstyp = runclog(a ^ b);
                        }
                        else if (val.runstyp == DAT_NUMBER
                                 && val2.runstyp == DAT_NUMBER)
                            val.runsv.runsvnum ^= val2.runsv.runsvnum;
                        else
                            runsig(ctx, ERR_REQNUM);
                        break;

                    case OPCASISHL:
                        if (val.runstyp != DAT_NUMBER
                            || val2.runstyp != DAT_NUMBER)
                            runsig(ctx, ERR_REQNUM);
                        val.runsv.runsvnum <<= val2.runsv.runsvnum;
                        break;
                        
                    case OPCASISHR:
                        if (val.runstyp != DAT_NUMBER
                            || val2.runstyp != DAT_NUMBER)
                            runsig(ctx, ERR_REQNUM);
                        val.runsv.runsvnum >>= val2.runsv.runsvnum;
                        break;
                        
                    default:
                        runsig(ctx, ERR_INVOPC);
                    }
                    break;

                default:
                    runsig(ctx, ERR_INVOPC);
                }
                
                /* write the rvalue at *valp to the lvalue */
                switch(opc & OPCASIDEST_MASK)
                {
                case OPCASILCL:
                    OSCPYSTRUCT(*(ctx->runcxbp + lclnum - 1), *valp);
                    break;
                    
                case OPCASIPRP:
                case OPCASIPRPPTR:
                assign_property:
                    {
                        void    *valbuf;
                        uchar    outbuf[4];
                        
                        switch(valp->runstyp)
                        {
                        case DAT_LIST:
                        case DAT_SSTRING:
                            valbuf = valp->runsv.runsvstr;
                            break;
                            
                        case DAT_NUMBER:
                            valbuf = outbuf;
                            oswp4(outbuf, valp->runsv.runsvnum);
                            break;
                            
                        case DAT_OBJECT:
                        case DAT_FNADDR:
                            valbuf = outbuf;
                            oswp2(outbuf, valp->runsv.runsvobj);
                            break;
                            
                        case DAT_PROPNUM:
                            valbuf = outbuf;
                            oswp2(outbuf, valp->runsv.runsvprp);
                            break;
                            
                        default:
                            valbuf = &valp->runsv;
                            break;
                        }
                        
                        ofs = runcpsav(ctx, &p, target, targprop);
                        objsetp(ctx->runcxmem, obj, prop, valp->runstyp,
                                valbuf, ctx->runcxundo);
                        p = runcprst(ctx, ofs, target, targprop);
                        break;
                    }
                    
                case OPCASIIND:
                    {
                        uint   newtot;
                        uint   newsiz;
                        uint   remsiz;
                        uint   delsiz;
                        uchar *delp;
                        uchar *remp;
                        
                        /* compute sizes and pointers to various parts */
                        ofs = runindofs(ctx, i, lstp);
                        delp = lstp + ofs;        /* ptr to item to replace */
                        delsiz = datsiz(*delp, delp + 1);  /* size of *delp */
                        remsiz = osrp2(lstp) - ofs - delsiz - 1;
                        newsiz = runsiz(valp);          /* size of new item */
                        newtot = osrp2(lstp) + newsiz - delsiz;  /* new tot */
                    
                        /* reserve space for the new list & copy first part */
                        {
                            runsdef val3;

                            /* make sure lstp stays valid before and after */
                            val3.runstyp = DAT_LIST;
                            val3.runsv.runsvstr = lstp;
                            runhres3(ctx, newtot, 3, &val, &val2, &val3);

                            /* update all of the pointers within lstp */
                            lstp = val3.runsv.runsvstr;
                            delp = lstp + ofs;
                            remp = lstp + ofs + delsiz + 1;
                        }
                        memcpy(ctx->runcxhp + 2, lstp + 2, (size_t)(ofs - 2));
                        
                        /* set size of new list */
                        oswp2(ctx->runcxhp, newtot);
                        
                        /* copy new item into buffer */
                        runputbuf(ctx->runcxhp + ofs, valp);
                        
                        /* copy remainder and update heap pointer */
                        memcpy(ctx->runcxhp + ofs + newsiz + 1, remp,
                               (size_t)remsiz);
                        val.runstyp = DAT_LIST;
                        val.runsv.runsvstr = ctx->runcxhp;
                        stkval = &val;
                        ctx->runcxhp += newtot;
                        break;
                    }
                }
                
            no_assign:   /* skip assignment - operation didn't change value */
                if (*p == OPCDISCARD)
                {
                    /* next assignment is DISCARD - deal with it now */
                    ++p;
                    ctx->runcxsp = rstsp;
                }
                else
                    runrepush(ctx, stkval);
            }
            else
                errsig(ctx->runcxerr, ERR_INVOPC);
        }
    }

    /* 
     *   come here to return - don't use 'return' directly, since that
     *   would not properly exit the error frame 
     */
done: ;

#ifndef DBG_OFF
    /*
     *   Come here to catch any errors that occur during execution of this
     *   p-code 
     */
     ERRCATCH(ctx->runcxerr, err)
     {
         /* 
          *   if the debugger isn't present, or we're already in the
          *   debugger, or if the debugger can't resume from errors, or if
          *   we're not in user code (in which case the debugger can't
          *   resume from this error even if it normally could resume from
          *   an error), simply re-signal the error 
          */
         if (!dbgpresent()
             || ctx->runcxdbg->dbgcxfcn == 0
             || !dbgu_err_resume(ctx->runcxdbg)
             || (ctx->runcxdbg->dbgcxflg & DBGCXFIND) != 0)
             errrse(ctx->runcxerr);

         /* check the error code */
         switch(err)
         {
         case ERR_RUNEXIT:
         case ERR_RUNABRT:
         case ERR_RUNASKD:
         case ERR_RUNASKI:
         case ERR_RUNQUIT:
         case ERR_RUNRESTART:
         case ERR_RUNEXITOBJ:
             /* don't trap these errors - resignal it immediately */
             errrse(ctx->runcxerr);

         default:
             /* trap other errors to the debugger */
             break;
         }
         
         /* if the object was unlocked, re-lock it */
         if (p == 0)
             mcmlck(ctx->runcxmem, target);

         /* set up after the last OPCLINE instruction */
         p = mcmobjptr(ctx->runcxmem, (mcmon)target) + ctx->runcxlofs - 2;
         p += *p;

         /* 
          *   Keep the current error's arguments around for handling
          *   outside of this handler, since we'll need them in dbgssi. 
          */
         errkeepargs(ctx->runcxerr);

         /* enter the debugger with the error code */
         dbgssi(ctx->runcxdbg, ctx->runcxlofs, OPCLINE, err, &p);

         /* check the error again */
         switch (err)
         {
         case ERR_ARGC:
             /* we can't continue from this - simply return */
             break;

         default:
             /* resume execution */
             goto resume_from_error;
         }
     }
     ERREND(ctx->runcxerr);
#endif /* DBG_OFF */
}

/*
 *   Signal a run-time error.  This function first calls the debugger
 *   single-step function to allow the debugger to trap the error, then
 *   signals the error as usual when the debugger returns.  
 */
void runsign(runcxdef *ctx, int err)
{
    /*
     *   If the debugger isn't capable of resuming from a run-time error,
     *   trap to the debugger now so that the user can see what happened.
     *   Do not trap to the debugger here if the debugger can resume from
     *   an error; instead, we'll trap in the p-code loop, since we'll be
     *   able to resume execution from the point of the error.
     *   
     *   Note that we can't resume from an error when there's no stack
     *   frame, so we'll trap to the debugger here in that case.  
     */
    if (ctx->runcxdbg->dbgcxfcn == 0
        || !dbgu_err_resume(ctx->runcxdbg))
        dbgssi(ctx->runcxdbg, ctx->runcxlofs, OPCLINE, err, 0);

    /* signal the error */
    errsign(ctx->runcxerr, err, "TADS");
}

